SCIENTIFIC ABSTRACT KOZINSKIY, E. M. - KOZIOROVA, T. N.

HcHi' 'U7, C-. Dissertation: "Investigation of Cer.ain Con,litioned ~ie'lex -.e,-,c,.i-onr, of ::eart in Fiortuinn in "he Crase of a aifferent Functional Ate- (if ~;ci, Jrder of Lenin Inst of PhYsic-A C,tltrue lr~-.erll I. V. 14 ~~v 54. Vech-~rnyaya rioskva, I'o3cow, 4 Ray 54. -0 : )Ij~: 2CII, -Nov P)54  KOZETSKIY. B.11. Study of some conditioned reapongo patternn of Vin hoart and rospirutory organs of athletes In different functional states. Frobl.vracli.kontr. no.3:101-127 155. (141RA 12: 9) (ATMON'S) (CONDITIU15,D) REbTOIIS-j,,) (JELRT) (R3SPUM-11011)  KOZINMIY, K. - ~ * - - Improve the quality of construction work. Muk.-elev.prom. 20 no-5:30 My '54. (MLRA 7:7) 1. Grechishkinekly punkt Zagotzerno. (Granaries)  KOZ INSKIY, K. Itle time to asphalt the grounds of storage points. Mulk.- clev.prom. 21 no.4:28 Ap 155. (MLRA 8:7) 1. Grechishkinekiy punkt Zagotzerno Krasnodarskogo kraya (Grain--Storage)  USSR/Chemical Technology -- Chemical Products and Their Application. Silicates. Glass. Ceramics. Binders, 1-9 Abst Journal: Referat Zhur - Khimiya, Nu 1, 1957, 1634 Author: Kozinskiy, N. F. Institution: Kiev Polytechnical Institute Title: Higher Forming Pressures as a Powerful Tool in the Improvement of the Physicochemical Properties Original Periodical: Izv. Kievsk. politekhn. in-ta, 1956, Vol 17, 225-228 Abstract: The relationship between the properties of fireclay brick for blast furnace lining and the forming pressure when window glass is added to the charge has been investigated. The composition of the charge (in weight percent) is as follows: fireclay from Novi Ray clay, 80-88; Chasovyarsk clay, 10; glass, 2-10; moisture, 8. Cubes of 50 mm edge have been produced with a hydraulic press at pressures of 400, 600, 800, and 1,000 kg/cm2; after drying, 'the samples were fired at 1,4000, with a 2-hour soaking period. As the pressure is increased, the Card 1/2  USSR/Chemical Technology -- Chemical Products and Their Application. Silicates. Glass. Ceramics. Binders, 1-9 Abet Journal: Referat Zhur - Khimiya, No 1, 1957, 1634 Abstract: porosity decreasea and the bulk density and compression strength in- crease. At forming prf-ssures of 400, 600, 800, and 1,000 the porosi- ties are 13.0, 10.6, 9.3, and 8.1~, respectively; the bulk densities are 2.04, 2.06, 2.08, and 2.12 gms/cm3; the compression strength, 6szh, 815, 1)000, 1,1571, 1,410 k9/cm2. Card 2/2  SOk~/l 37 58 - 7- 14 1 ZO Translation frorn; Referativnyy zhurnal, Metallurgiya, 1958, -7,%r 7, p 20 (USSR) AUTHOR: Kozinskiy, N.F. TITLE: hy Refractories Undergo Destruction in the Shaft of a Blast Furnace (Pochemu razrushaytsya ogneupor v shakhte domennoy pechi) PERIODICAL: Izv. Kiycvsk. politekiiii, in-ta, 1957, Vol 20, pp 149-155 ABSTRACT: A study is made of the effect of metallic Zn and CO on fireclav brick in the lining of tile blast-furnace shaft (S). When samples of fireclay brick (SB) are saturated wit-h Zn fumes in an N2, atmosphere, the Zn condensed within the SB at a rate that increased with porosity. As tile exterior pores becanic. plugged, penetration of the Zn into the SB ceased. Subsequent oxidation of the Zn remaining in the SB pores after saturation, on heating to 7500C in a CO atmosphere for 3 hours, did not result in destruction of the SB. CO caused destruction of all the S13 except that fired at 14500, in which case the Fe oxides combined into silicate compounds. In many SB the dissocia- tion of the CO and the deposition of C soot in t1w pares was Card 1/2 observed at 700-F-1000. Simultaneous action of GO and Zn funles  sov/ 137-58-7-14120 Why Refractories Undergo Destruction in the Shaft of a Blast Furnace caused the deposition of C soot in the SB pores to be accompanied by the formation of cracks which filled with ZnO liberated from the gaseous medium and inhibiting further destruction of the SB if the crystallization of the ZnO went faster than the deposition of the C. The investigations led to the con- clusion that the refractory undergoes destruction in the S only by C soot, and that the sole means of improving the endurance of a refractory in the S is a reduction of its porosity. 1. Refractory mater ials--Deteriorat ion 2. Zinc vapors--Corrosive Ya. G. effects Card 212  SOV/ 137-58-7-1,1119 'I'l'.3111flation from: I6,-furativnyy A111-Wd, fV10i111111'giY;1, 1'68, rir 7, p 20 (USSR) A UT 110 R: Kozinskib 6:~_'~;. W 'T-M-proving the Hardness of High-alumina Refractories (Po%'vShCniYC plotnosti vysokoglinozemistykii ogneuporov) PERIODICAL: Izv. Kiyevsk. politekhn. in-ta, 1957, Vol 20, pp 156- 1 '00 ABSTBLACT: Samples of high-alurnina refractories (HR) are made of twomixes of the following composition: 1) 106f clay and 90% conventional high- '0 alumina fireclay (GHF), containing 80% technical alumina (TA) and f 201/6 clay and fired at 1600OC; 2) 10% clay, 400 CHF, and 5056 hard- setting alumina (HA) containing 90% TA, 9.576 clay, and 0.5% TiO2, fired at 1450 and 16000. The granular composition of the deplasti- cizers (4011,1o